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Extracellular free calcium and potassium during paroxysmal activity in the cerebral cortex of the cat (1977)

Heinemann, U. ; Lux, H. D. ; Gutnick, M. J.

Springer

Experimental brain research 27 (1977), S. 237-243

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ISSN: 1432-1106

Keywords: Ca++ selective microelectrodes ; Ca++ activity ; K+ activity ; Seizure ; Cerebral cortex

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Extracellular calcium and potassium activities (aCa and aK) as well as neuronal activity were simultaneously recorded with ion-sensitive electrodes in the somatosensory cortex of cats. Baseline aCa was 1.2–1.5 mM/1, baseline a k 2.7–3.2 mM/1. Transient decreases in aCa and simultaneous increases in aK were evoked by repetitive stimulation of the contralateral forepaw, the nucleus ventroposterolateralis thalami and the cortical surface. Considerable decreases in aCa (by up to 0.7 mM/1) were found during seizure activity. A fall in aCa preceded the onset of paroxysmal discharges and the rise in aK after injection of pentylene tetrazol. The decrease in aCa led also the rise in aK during cyclical spike driving in a penicillin focus. It is concluded that alterations of Ca++ dependent mechanisms participate in the generation of epileptic activity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235500

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Intracellular Calcium and Control of Burst Generation in Neurons of Guinea-Pig Neocortex in Vitro (1989)

Friedman, A. ; Gutnick, M. J.

Oxford, UK : Blackwell Publishing Ltd

European journal of neuroscience 1 (1989), S. 0

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ISSN: 1460-9568

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Response properties of neurons in brain slices of guinea pig parietal neocortex were examined following intracellular injection of the Ca2+ chelators, EGTA and BAPTA. Although chelator injection did not cause any consistent change in passive membrane properties, it did induce 81% of neurons encountered at all sub-pial depths to become ‘bursters’, in that just-threshold depolarizing current pulses triggered all-or-none bursts of 2–5 fast action potentials. Transition to ‘burstiness’ was associated with disappearance of an AHP and appearance of a DAP. Although chelator caused a slight increase in steady-state firing rate, marked accommodation persisted. Extracellular Co2+ or Mn2+ had an effect on steady-state firing rate similar to that of the intracellular chelators; however, exposure to these Ca2+ channel blockers also caused steady state depolarization, increased resting input resistance and time constant, and profound spike broadening. This treatment never induced transition to ‘burstiness’. Chelator-injected neurons ceased to generate bursts when Ca2+ was replaced by Mn2+ in the Ringer's solution. During exposure to 10−6 M TTX and 20 mM TEA, 50–200 msec Ca2+ spikes followed brief depolarizing pulses. As chelator was injected into the cell, there was progressive prolongation of the Ca2+ plateaus, which was associated with slowing of the rate at which membrane resistance gradually recovered following the initial increase in conductance.These findings indicate that under normal conditions, activity-related increases in intracellular Ca2+ activate processes which prevent most neocortical neurons from being bursters. These processes probably include Ca2+ -dependent K+ currents, and Ca2+ -dependent Ca2+ channel inactivation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1460-9568.1989.tb00802.x

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Electrophysiological characteristics of neurons in neocortical expiant cultures (1989)

Wolfson, B. ; Gutnick, M. J. ; Baldino, F.

Springer

Experimental brain research 76 (1989), S. 122-130

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ISSN: 1432-1106

Keywords: Neocortex ; Explant culture ; Intracellu lar recording ; Electrophysiological characteristics

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary We examined the electrophysiological and morphological properties of neocortical neurons maintained in expiant cultures prepared from the parietal cortex of newborn Sprague-Dawley rats. After 3–6 weeks in vitro, cultures showed regional differences in cellular density reminiscent of cortical layering, and an abundance of axonal processes. Pyramidal-shaped neurons with spinous dendrites were the dominant elements revealed by Lucifer yellow injections. Intracellular recordings revealed that many electrophysiological properties of neurons in the explants resembled those of neocortical neurons in vivo and in slice preparations. In response to depolarizing current injection, neurons in the expiants showed the same three patterns of repetitive firing described in neocortical slices, as well as a similar array of responses. Spontaneous synaptic potentials were recorded from all neurons and complex PSPs were evoked in response to focal extracellular stimulation. GABAa receptors mediated a significant component of the evoked responses. Fifteen of sixty neurons generated action potentials that arose spontaneously from resting potentials. Neurons in many slices generated large, prolonged depolarizing potentials that reflected coordinated synaptic activity within the expiants. These results underscore the usefulness of the neocortical explant as a valuable model for studying aspects of the behavior of circuits of cortical neurons.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00253629

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Synchronized neuronal activities in neocortical explant cultures (1989)

Gutnick, M. J. ; Wolfson, B. ; Baldino, F.

Springer

Experimental brain research 76 (1989), S. 131-140

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ISSN: 1432-1106

Keywords: 2APV ; Bicuculline ; Synchronous activity ; Neocortical expiants ; Intracellular recording

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Intracellular recordings revealed that in neocortical expiant cultures prepared on the day of birth and examined 3–6 weeks later, neurons mature and establish complex synaptic relationships that lead to spontaneous and triggered synchronous discharge. The spontaneous synchronous activity took several forms, including periodic generation of epileptiform depolarizing waves, prolonged periods of seizure-like discharge, and periodic, intense barrages of IPSPs. Synchronous depolarizations were associated with a marked increase in membrane conductance. Intracellular injection of currents of varying polarity and intensity affected their amplitudes and polarities without influencing the probability of their occurance, indicating that the discharge reflected the synchronous activities of a neuronal population. This conclusion was confirmed with simultaneous recordings from pairs of neurons. Effects of the GABAa receptor antagonist, bicuculline, and the NMDA receptor antgonist, 2-aminophosphonvalerate (2APV), were used to assess the contributions of impairment of inhibition and enhancement of excitation to the initiation of synchronous discharge. The frequency with which spontaneous depolarizations were generated in normal medium was markedly reduced by 2APV. Moreover, seizure-like activity was induced by removing Mg++ from the medium, a condition that enhances conductance through NMDA receptor-coupled channels. This behavior was also attenuated by 2APV. Perfusion of bicuculline was potently epileptogenic. 2APV cut short the late, voltage-dependent phase of bicuculline-induced paroxysmal depolarizations, indicating a role of NMDA receptors in generating this component of the wave. Epileptiform activities induced by withdrawal of Mg++ were greatly augmented by bicuculline, indicating that blockade of inhibition was not a prerequisite for seizure-like activity. This conclusion is supported by the finding that in many neurons in untreated cultures, paroxysmal generation of trains of IPSPs was the primary manifestation of spontaneous, synchronous population discharge.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00253630

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